electrodynamics/APIs/universalelectricity/compatibility/ItemUniversalElectric.java

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package universalelectricity.compatibility;
import ic2.api.item.IElectricItemManager;
import ic2.api.item.ISpecialElectricItem;
import net.minecraft.entity.EntityLivingBase;
import net.minecraft.item.ItemStack;
import thermalexpansion.api.item.IChargeableItem;
import universalelectricity.core.item.IItemElectric;
import universalelectricity.core.item.ItemElectric;
public abstract class ItemUniversalElectric extends ItemElectric implements ISpecialElectricItem, IChargeableItem
{
public static final float CHARGE_RATE = 0.005f;
public ItemUniversalElectric(int id)
{
super(id);
}
/**
* IC2
*/
@Override
public int getChargedItemId(ItemStack itemStack)
{
return this.itemID;
}
@Override
public int getEmptyItemId(ItemStack itemStack)
{
return this.itemID;
}
@Override
public int getMaxCharge(ItemStack itemStack)
{
return (int) (this.getMaxElectricityStored(itemStack) * Compatibility.TO_IC2_RATIO);
}
@Override
public int getTier(ItemStack itemStack)
{
return 1;
}
@Override
public int getTransferLimit(ItemStack itemStack)
{
return (int) ((this.getMaxElectricityStored(itemStack) * CHARGE_RATE) * Compatibility.TO_IC2_RATIO);
}
@Override
public IElectricItemManager getManager(ItemStack itemStack)
{
return IC2ElectricItemManager.MANAGER;
}
@Override
public boolean canProvideEnergy(ItemStack itemStack)
{
return this.recharge(itemStack, 1, false) > 0;
}
/**
* Thermal Expansion
*/
@Override
public float receiveEnergy(ItemStack theItem, float energy, boolean doReceive)
{
return this.recharge(theItem, energy * Compatibility.BC3_RATIO, doReceive) * Compatibility.TO_BC_RATIO;
}
@Override
public float transferEnergy(ItemStack theItem, float energy, boolean doTransfer)
{
return this.discharge(theItem, energy * Compatibility.BC3_RATIO, doTransfer) * Compatibility.TO_BC_RATIO;
}
@Override
public float getEnergyStored(ItemStack theItem)
{
return this.getElectricityStored(theItem) * Compatibility.TO_BC_RATIO;
}
@Override
public float getMaxEnergyStored(ItemStack theItem)
{
return this.getMaxElectricityStored(theItem) * Compatibility.TO_BC_RATIO;
}
public static class IC2ElectricItemManager implements IElectricItemManager
{
public static final IElectricItemManager MANAGER = new IC2ElectricItemManager();
private IItemElectric getElectricItem(ItemStack itemStack)
{
if (itemStack.getItem() instanceof IItemElectric)
{
return ((IItemElectric) itemStack.getItem());
}
return null;
}
@Override
public int charge(ItemStack itemStack, int amount, int tier, boolean ignoreTransferLimit, boolean simulate)
{
float inputElectricity = amount * Compatibility.IC2_RATIO;
return (int) (getElectricItem(itemStack).recharge(itemStack, inputElectricity, !simulate) * Compatibility.TO_IC2_RATIO);
}
@Override
public int discharge(ItemStack itemStack, int amount, int tier, boolean ignoreTransferLimit, boolean simulate)
{
float outputElectricity = amount * Compatibility.IC2_RATIO;
return (int) (getElectricItem(itemStack).discharge(itemStack, outputElectricity, !simulate) * Compatibility.TO_IC2_RATIO);
}
@Override
public boolean canUse(ItemStack itemStack, int amount)
{
return false;
}
@Override
public int getCharge(ItemStack itemStack)
{
return 0;
}
@Override
public boolean use(ItemStack itemStack, int amount, EntityLivingBase entity)
{
return false;
}
@Override
public void chargeFromArmor(ItemStack itemStack, EntityLivingBase entity)
{
}
@Override
public String getToolTip(ItemStack itemStack)
{
return null;
}
}
}